Printing apparatus and printing method

ABSTRACT

A printing apparatus includes a conversion section that retrieves a printing data stored into a storage section on a first-in first-out basis, and converts, for each set of n lines, n being a predetermined number larger than or equal to 1, the retrieved printing data into image data in accordance with a printing setting in order in which the printing data is retrieved; a deletion controller that, at timing when printing of the image data is started, deletes, from the storage section, converted printing data corresponding to the image data; and a printing setting controller that, when the printing setting is changed during the printing of the image data, causes the conversion section to convert converted printing data stored in the storage section, in accordance with the changed printing setting.

The present application is based on, and claims priority from JPApplication Serial Number 2018-110146, filed Jun. 8, 2018, thedisclosure of which is hereby incorporated by reference herein in itsentirety.

BACKGROUND 1. Technical Field

The present disclosure relates to a printing apparatus and a printingmethod.

2. Related Art

In printing apparatuses, there occurs a case in which printing settingsare changed in the course of printing. There is known a printingapparatus capable of allowing changed printing settings to be reflectedon printing (see JP-A-2006-123428). The printing apparatus described inJP-A-2006-123428 continues to retain printing data during apredetermined period even after the rasterization of the printing data.With this configuration, when the printing settings have been changedwhen the printing is ongoing, the printing apparatus described inJP-A-2006-123428 is capable of allowing the changed printing settings tobe reflected without receiving the printing data again from a hostcomputer by rasterizing the retained printing data using the changedprinting settings.

In the printing apparatus described in JP-A-2006-123428, it isunnecessary to receive the printing data from the host computer again,however, in order to reflect the change of the printing settings on theresult of the printing, it is necessary to perform the rasterization andthe printing from an initial stage again. In a case in which theprinting is started over again from initial printing data, an additionalprocessing amount and an additional period of time are needed in therasterization and the printing, as compared with a case in which thechange of the printing settings is reflected in the course of theprinting. It has been demanded to enable the change of the printingsettings to be reflected in the course of the printing so as to minimizethe additional processing amount and the additional period of time inthe rasterization and the printing.

SUMMARY

The present disclosure has been made in order to solve the aboveproblem, and a printing apparatus according to an aspect of the presentdisclosure includes: a first acquisition section that acquires firstprinting data; a first storage controller that causes the first printingdata acquired by the first acquisition section to be stored into a firststorage section; a first conversion section that retrieves, from thefirst storage section, the first printing data stored into the firststorage section on a first-in first-out basis, and converts, for eachset of n lines, n being a predetermined number larger than or equal to1, the retrieved first printing data into first image data in accordancewith a printing setting in order in which the first printing data isretrieved; a first deletion controller that, at timing when printing ofthe first image data is started, deletes, from the first storagesection, converted first printing data corresponding to the first imagedata; and a first printing setting controller that, when the printingsetting is changed during the printing of the first image data, causesthe first conversion section to convert converted first printing datastored in the first storage section, in accordance with the changedprinting setting.

Further, a printing method according to another aspect of the presentdisclosure includes: acquiring first printing data; causing the firstprinting data acquired in the acquiring first printing data to be storedinto a first storage section; retrieving, from the first storagesection, the first printing data stored into the first storage sectionon a first-in first-out basis, and converting, for each set of n lines,n being a predetermined number larger than or equal to 1, the retrievedfirst printing data into first image data in accordance with a printingsetting in order in which the first printing data is retrieved;deleting, at timing when printing of the first image data is started,from the first storage section, converted first printing datacorresponding to the first image data; and causing, when the printingsetting is changed during the printing of the first image data, in theconverting the retrieved first printing data, converted first printingdata stored in the first storage section to be converted, in accordancewith the changed printing setting.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram illustrating an example of the configuration ofhardware of a printing apparatus according to a first embodiment of thepresent disclosure.

FIG. 2 is a diagram illustrating an example of the configuration of acontroller according to the first embodiment of the present disclosure.

FIG. 3 is a diagram illustrating an example of printing processingaccording to the first embodiment of the present disclosure.

FIG. 4 is a diagram illustrating an example of the configuration ofhardware of a printing apparatus according to a second embodiment of thepresent disclosure.

FIG. 5 is a diagram illustrating an example of the configuration of acontroller according to the second embodiment of the present disclosure.

FIG. 6 is a diagram illustrating an example of processing for selectinga setting change mode, according to the second embodiment of the presentdisclosure.

FIG. 7 is a diagram illustrating an example of processing for a settingchange for each page, according to the second embodiment of the presentdisclosure.

FIG. 8 is a diagram illustrating an example of the processing for thesetting change for each page, according to the second embodiment of thepresent disclosure.

FIG. 9 is a diagram illustrating an example of the processing for thesetting change for each page, according to the second embodiment of thepresent disclosure.

FIG. 10 is a diagram illustrating an example of the processing for thesetting change for each page, according to the second embodiment of thepresent disclosure.

FIG. 11 is a diagram illustrating an example of printing processingaccording to the second embodiment of the present disclosure.

DESCRIPTION OF EXEMPLARY EMBODIMENTS First Embodiment

Hereinafter, an embodiment of the present disclosure will be describedin detail with reference to the drawings.

Configuration of Printing Apparatus 1

FIG. 1 is a diagram illustrating an example of the configuration ofhardware of a printing apparatus 1, namely, a printing apparatusaccording to the present embodiment. The printing apparatus 1 is aserial impact dot matrix (SIDM) printer as an example. Note that theprinting apparatus 1 may be an ink jet printer or a laser printer.Further, the printing apparatus 1 may be a printer employing a serialhead, or may be a printer employing a line head.

The printing apparatus 1 includes a communication interface (I/F) 10, aprinter module 11, an operation panel 12, a central processing unit(CPU) 13, a read only memory (ROM) 14, and a random access memory (RAM)15.

The communication I/F 10 includes an interface for use in communicationof the printing apparatus 1 with a host computer via a network. Here,the host computer transmits a printing execution signal to the printingapparatus 1 via the network. Here, the printing execution signal is asignal including printing data DP and printing setting information.

The printing data DP is data representing a text document and/or animage, as a printing target. The printing data DP includes datacorresponding to one or more pages, and has a page break command at aseparation point between the pages. Here, the page break command is acharacter string representing the separation point between the pages inthe printing data DP.

The printing setting information is information representing printingsettings. Here, the printing settings are settings in relation to, forexample, a font, a pitch, a space between lines, a printing density,color printing, monochrome printing, a paper size, and the like.

Upon receipt of the printing execution signal, the printing apparatus 1executes printing execution processing. The printing executionprocessing includes drawing processing and printing processing. Thedrawing processing (rasterization) is processing for converting theprinting data DP into printing images IP. Here, the printing images IPare images obtained by converting the text document and/or the image,represented by the printing data DP, into bitmap images. The printingprocessing is processing for printing the printing images IP.

The printer module 11 executes the printing processing. The printermodule 11 includes a recording mechanism for horizontally scanning animage and recording the image on paper. Further, the printer module 11includes a transport mechanism for vertically transporting the paper onwhich the image is printed.

The operation panel 12 receives operations from users. The operationsfrom users are operations for changing the printing settings. Theoperation panel 12 is, for example, a touch panel, and displays buttonscorresponding to the operations from users.

The CPU 13 retrieves programs from the ROM 14, and executes variouskinds of control in accordance with the retrieved programs. The CPU 13incorporates a plurality of internal storage media, such as a registerand the like. The CPU 13 temporarily stores data into one of theinternal storage media from the ROM 14, and performs arithmeticprocessing on the data. The CPU 13 outputs the result of the arithmeticprocessing to the register, and further outputs the result of thearithmetic processing to the RAM 15 or an external storage medium fromthe register.

The ROM 14 is a main storage device storing various kinds of programs,data, and parameters for use in various kinds of arithmetic operationsand control by the CPU 13. The ROM 14 is capable of retaining itsstorage content even in a state in which electric power supplied to theROM 14 is zero.

The RAM 15 is a main storage device used by the CPU 13 as its workingmemory. The RAM 15 is subjected to writing and erasing of its programs,data, and the like by the CPU 13.

FIG. 2 is a diagram illustrating an example of the configuration of acontroller 20, namely, a controller according to the present disclosure.The controller 20 includes a printing data acquisition section 200, aprinting data buffer controller 201, a printing data deletion controller202, a conversion section 203, a printing image buffer controller 204, aprinting image deletion controller 205, a printing setting controller206, and a printing controller 207.

The printing data acquisition section 200, the printing data buffercontroller 201, the printing data deletion controller 202, theconversion section 203, the printing image buffer controller 204, theprinting image deletion controller 205, the printing setting controller206, and the printing controller 207 are modules that are eachimplemented by allowing the CPU 13 to retrieve the programs from the ROM14 and execute processes. That is, the controller 20 is implemented bythe CPU 13.

The printing data acquisition section 200 acquires the printing data DPhaving been received by the communication I/F 10. The printing databuffer controller 201 allows the printing data DP having been acquiredby the printing data acquisition section 200 to be stored into aprinting data buffer 30. The printing data deletion controller 202deletes the printing data DP from the printing data buffer 30.

The conversion section 203 retrieves the printing data DP having beenstored into the printing data buffer 30, on a first-in first-out basis.The conversion section 203 convers the retrieved printing data DP intoprinting images IP in accordance with the printing settings. Here, theconversion section 203 convers, for each set of n lines, the retrievedprinting data DP into the printing images IP in order in which theprinting data DP has been retrieved. Here, n is a predetermined numberlarger than or equal to 1. The above expression “for each set of nlines” means “in a unit corresponding to n lines among lines included inthe text document represented by the printing data DP”. Thus, oneprinting image IP corresponds to n lines of data in the printing dataDP.

The printing image buffer controller 204 allows the printing images IPto be stored into a printing image buffer 40. The printing imagedeletion controller 205 deletes the printing images IP from the printingimage buffer 40.

The printing setting controller 206 controls the printing settings foruse in the processing that the conversion section 203 performs toconvert the printing data DP into the printing images IP. The printingcontroller 207 controls the printing processing of the printingapparatus 1, through the printer module 11.

The printing data buffer 30 stores the printing data DP therein. Theprinting image buffer 40 stores the printing images IP therein. Theprinting data buffer 30 and the printing image buffer 40 are eachimplemented by the RAM 15.

Printing Processing

The printing processing of the printing apparatus 1 when the printingsettings are changed in the course of the printing processing will bedescribed with reference to FIG. 3. FIG. 3 is a diagram illustrating anexample of the printing processing according to the present embodiment.The printing processing illustrated in FIG. 3 is started when theprinting apparatus 1 has received printing data DP from the hostcomputer via the communication I/F 10.

Step S100: the printing data acquisition section 200 acquires theprinting data DP. Here, the printing data acquisition section 200acquires the printing data DP by decoding a printing execution signalhaving been received from the host computer via the communication I/F10. The printing data acquisition section 200 supplies the acquiredprinting data DP to the printing data buffer controller 201.

Step S110: the printing data buffer controller 201 allows the printingdata DP having been supplied by the printing data acquisition section200 to be stored into the printing data buffer 30. Here, the printingdata buffer controller 201 allows the printing data DP to be stored intothe printing data buffer 30 in order in which the printing dataacquisition section 200 has acquired the printing data DP.

Step S120: the conversion section 203 performs the drawing processing.Here, the conversion section 203 retrieves the printing data DP, whichis stored in the printing data buffer 30, from the printing data buffer30 on a first-in first-out basis. The conversion section 203 convers,for each set of n lines, the retrieved printing data DP into a printingimage IP in accordance with the printing settings in order in which theprinting data DP has been retrieved.

The conversion section 203 supplies the printing image IP resulting fromthe conversion to the printing image buffer controller 204. The printingimage buffer controller 204 allows the printing image IP having beensupplied by the conversion section 203 to be stored into the printingimage buffer 40. Thus, the printing image IP having been converted bythe conversion section 203 is sequentially stored into the printingimage buffer 40. Note that the individual processes in steps S100, S110,and S120 are performed without pause even during the execution ofprocesses in step S130 and subsequent steps.

Step S130: the printing setting controller 206 determines whether or notan operation of changing the printing settings has been performed. Here,the printing setting controller 206 makes this determination bydetecting the presence or absence of an operation of changing theprinting settings that has been received through the operation panel 12.

When it is determined that the operation of changing the printingsetting has been performed (step S130: YES), the printing settingcontroller 206 allows printing setting information indicating a printingsetting corresponding to the detected operation to be stored into theRAM 15. Here, when printing setting information is already stored in theRAM 15, the printing setting controller 206 updates the stored printingsetting information with the printing setting information indicating theprinting setting corresponding to the detected operation. Thereafter,the printing setting controller 206 performs a process in step S180. Incontrast, when the result of the above determination by the printingsetting controller 206 is that no operation of changing the printingsettings is performed (step S130: NO), the controller 20 performs aprocess in step S140.

Step S140: at timing when printing of the printing image IP is started,the printing data deletion controller 202 deletes printing data DPcorresponding to the printing image IP from the printing data buffer 30.Here, the printing image IP corresponds to data associated with a set ofn lines among the printing data DP, and the printing data DP is deletedfor each set of n lines.

Step S150: the printing controller 207 starts the printing. Here, theprinting controller 207 retrieves the printing image IP stored in theprinting image buffer 40 from the printing image buffer 40 on a first-infirst-out basis. The printing controller 207 performs the printingthrough the printer module 11 based on the retrieved printing image IP.

Step S160: the printing controller 207 completes the printing. StepS170: the printing image deletion controller 205 deletes, from theprinting image buffer 40, one or more printing images IP, which areamong the printing images IP stored in the printing image buffer 40 andfor which the printing has been completed. Thereafter, the controller 20terminates the printing processing.

Step S180: the printing setting controller 206 changes the printingsettings. Here, the printing setting controller 206 changes the printingsettings based on the printing setting information having been storedinto the RAM 15 in step S130.

Step S190: the printing image deletion controller 205 deletes, from theprinting image buffer 40, one or more printing images IP which are amongthe printing images IP having been stored into the printing image buffer40 and for which the printing is not completed. Here, the process instep S190 is performed at timing when the printing settings have beenchanged when the printing of the printing image IP is ongoing. Thus, atthe timing when the printing settings have been changed when theprinting of the printing image IP is ongoing, the printing imagedeletion controller 205 deletes, from the printing image buffer 40, oneor more printing images IP, which are stored into the printing imagebuffer 40 and which are not subjected to the printing.

Step S200: the conversion section 203 retrieves printing data DP fromthe printing data buffer 30 on a first-in first-out basis. In thisrespect, however, for printing data DP corresponding to printing imagesIP for which the printing has been already completed, the deletion ofthe relevant printing data DP from the printing data buffer 30 has beenalready made in step S140. Accordingly, the printing data DP to beretrieved by the conversion section 203 in step S200 is printing data DPfor which the printing is not completed.

Thereafter, the process performed by the conversion section 203 proceedsto the process in step S120. Here, in the process in step S120, theprinting setting controller 206 allows the conversion section 203 toconvert printing data DP that is stored in the printing data buffer 30,in accordance with the changed printing settings. Accordingly, in a casein which the printing settings have been changed when the printing of animage IP is ongoing, the printing setting controller 206 allows theconversion section 203 to convert printing data DP that is stored in theprinting data buffer 30, in accordance with the changed printingsettings.

As described above, the printing apparatus 1 according to the presentembodiment includes a first acquisition section (the printing dataacquisition section 200), a first storage controller (the printing databuffer controller 201), a first conversion section (the conversionsection 203), a first deletion controller (the printing data deletioncontroller 202), and a first printing setting controller (the printingsetting controller 206).

The first acquisition section (the printing data acquisition section200) acquires first printing data (printing data DP). The first storagecontroller (the printing data buffer controller 201) allows the firstprinting data (the printing data DP) having been acquired by the firstacquisition section (the printing data acquisition section 200) to bestored into a first storage section (the printing data buffer 30).

The first conversion section (the conversion section 203) retrieves thefirst printing data (the printing data DP) having been stored into thefirst storage section (the printing data buffer 30), from the firststorage section (the printing data buffer 30) on a first-in first-outbasis, and converts, for each set of n lines, n being a predeterminednumber larger than or equal to 1, the retrieved first printing data (theprinting data DP) into first image data (a printing images IP) inaccordance with printing settings in order in which the first printingdata (the printing data DP) has been retrieved.

At timing when the printing of the first image data (the printing imageIP) has been started, the first deletion controller (the printing datadeletion controller 202) deletes, from the first storage section (theprinting data buffer 30), first printing data (printing data DP)corresponding to the first image data (the printing image IP).

In a case in which the printing settings have been changed when theprinting of the first image data (the printing image IP) is ongoing, thefirst printing setting controller (the printing setting controller 206)allows the first conversion section (the conversion section 203) toconvert first printing data (printing data DP) that is stored in thefirst storage section (the printing data buffer 30), in accordance withthe changed printing settings.

With this configuration, the printing apparatus 1 according to thepresent embodiment is capable of performing printing in a way thatallows the change of the printing settings to be made in the course ofthe printing processing because, at timing when the printing of thefirst image data (the printing image IP) has been started, the printingapparatus 1 is capable of deleting first printing data (printing dataDP) corresponding to the first image data (the printing image IP) fromthe first storage section (the printing data buffer 30), and in a casein which the printing settings are changed when the printing of thefirst image data (the printing image IP) is ongoing, the printingapparatus 1 is capable of causing the first conversion section (theconversion section 203) to convert first printing data (printing dataDP) that is stored in the first storage section (the printing databuffer 30), in accordance with the changed printing settings.

Further, a printing method according to the present embodiment includesa first acquisition process (step S100), a first storage control process(step S110), a first conversion process (step S120), a first deletioncontrol process (step S140), a first printing setting control process(step S120 performed after step S180).

In the first acquisition process (step S100), first printing data(printing data DP) is acquired. In the first storage control process(step S110), the first printing data (the printing data DP) having beenacquired in the first acquisition process (step S100) is stored into afirst storage section (the printing data buffer 30). In the firstconversion process (step S120), the first printing data (the printingdata DP) having been stored into the first storage section (the printingdata buffer 30) is retrieved from the first storage section (theprinting data buffer 30) on a first-in first-out basis, and theretrieved first printing data (the printing data DP) is converted, foreach set of n lines, n being a predetermined number larger than or equalto 1, into first image data (a printing images IP) in accordance withprinting settings in order in which the first printing data (theprinting data DP) has been retrieved. In the first deletion controlprocess (step S140), at timing when the printing of the first image data(the printing image IP) has been started, first printing data (printingdata DP) corresponding to the first image data (the printing image IP)is deleted from the first storage section (the printing data buffer 30).

In the first printing setting control process (in step S120 performedafter step S180), in a case in which the printing settings are changedwhen the printing of the first image data (the printing image IP) isongoing, first printing data (printing data DP) that is stored in thefirst storage section (the printing data buffer 30) is converted inaccordance with changed printing settings in the first conversionprocess (step S120).

Second Embodiment

Hereinafter, a second embodiment of the present disclosure will bedescribed in detail referring to the drawings. In the above firstembodiment, there has been described the case in which the printingapparatus allows the change of the printing settings to be reflectedfrom n lines subsequent to n lines for which printing is currentlyperformed. In the present embodiment, there will be described a case inwhich a printing apparatus allows the change of the printing settings tobe reflected for each page.

Configuration of Printing Apparatus 1 a

The printing apparatus 1 according to the present embodiment will bereferred to as a printing apparatus 1 a. FIG. 4 is a diagramillustrating an example of the configuration of hardware of the printingapparatus 1 a according to the present embodiment. In comparison of theprinting apparatus 1 a (FIG. 4) according to the present embodiment withthe printing apparatus 1 (FIG. 1) according to the first embodiment, aCPU 13 a is different. Here, the functions of the other components (thecommunication I/F 10, the printer module 11, the operation panel 12, theROM 14, and the RAM 15) are the same as the functions of those in thefirst embodiment. Note that, in the components of FIG. 4, componentscommon to components of the first embodiment are denoted by the samereference signs as those of the components of the first embodiment.

A controller of the printing apparatus 1 a is implemented by the CPU 13a. Thus, for the printing apparatus 1 a according to the presentembodiment and the printing apparatus 1 according to the firstembodiment, there is a difference in the configuration of thecontroller. The description of functions that are the same as those ofthe first embodiment will be omitted, and in the second embodiment,description focusing on points different from the first embodiment willbe made.

The configuration of a controller 20 a, namely, a controller of theprinting apparatus 1 a, will be described with reference to FIG. 5. FIG.5 is a diagram illustrating an example of the configuration of thecontroller 20 a according to the present embodiment. In comparison ofthe controller 20 a (FIG. 5) according to the present embodiment withthe controller 20 (FIG. 2) according to the first embodiment, thecontroller 20 a further includes a selection section 208 and a pageprinting setting controller 209. Here, the functions of the othercomponents (the printing data acquisition section 200, the printing databuffer controller 201, the printing data deletion controller 202, theconversion section 203, the printing image buffer controller 204, theprinting image deletion controller 205, the printing setting controller206, and the printing controller 207) are the same as the functions ofthose in the first embodiment. Note that, in the components of FIG. 5,components common to components of the first embodiment are denoted bythe same reference signs as those of the components of the firstembodiment.

The selection section 208 selects a setting-change for-each-page enabledmode and a setting-change for-each-set-of-n-lines enabled mode. Here,the setting-change for-each-page enabled mode is a mode in which theprinting settings can be changed for each page. The setting-changefor-each-set-of-n-lines enabled mode is a mode in which the printingsettings can be changed for each set of n lines. The selection section208 selects either the setting-change for-each-page enabled mode or thesetting-change for-each-set-of-n-lines enabled mode based on a selectingoperation received by the operation panel 12. The page printing settingcontroller 209 controls, for each page, the printing settings for use inthe processing in which the conversion section 203 converts the printingdata DP into the printing images IP.

Printing Processing

FIG. 6 is a diagram illustrating an example of processing for selectinga setting change mode, according to the present embodiment. Theprocessing illustrated in FIG. 6 is started when the printing apparatus1 has received the printing data DP from the host computer through thecommunication I/F 10.

Note that, before the processing illustrated in FIG. 6 is started, theselection section 208 selects in advance a setting change mode, that is,either the setting-change for-each-page enabled mode or thesetting-change for-each-set-of-n-lines enabled mode based on a selectingoperation received by the operation panel 12. Here, the selection of asetting change mode by the selection section 208 means that theselection section 208 stores setting change mode information indicatingthe setting change mode into the RAM 15.

Step S300: the page printing setting controller 209 determines whetheror not the setting-change for-each-page enabled mode is selected as thesetting change mode. Here, the page printing setting controller 209retrieves the setting change mode information stored in the RAM 15, andmakes the determination based on the retrieved setting change modeinformation.

When the result of the determination by the page printing settingcontroller 209 is that the setting-change for-each-page enabled mode isselected as the setting change mode (step S300: YES), the controller 20performs a process in step S310. In contrast, when the result of thedetermination by the page printing setting controller 209 is that thesetting-change for-each-page enabled mode is not selected as the settingchange mode (step S300: NO), the controller 20 performs a process instep S320.

The details of the process in step S310 will be described with referenceto FIGS. 7 to 11. The process in step S320 is the same as the printingprocessing of FIG. 3. That is, when the setting-changefor-each-set-of-n-lines enabled mode has been selected by the selectionsection 208, the printing apparatus 1 a allows the printing settingcontroller 206 to reflect, for each set of n lines, the change of theprinting settings. The process in step S320 is the same as the printingprocessing of FIG. 3, and thus, will be omitted from the followingdescription.

Here, the outline of processing for a setting change for each page willbe described with reference to FIGS. 7 to 10. In FIGS. 7 to 10, printingdata DP1, printing data DP2, and printing data DP3 are respectively, inthis order, data corresponding to a first page, data corresponding to asecond page, and data corresponding to a third page, in the printingdata DP. In FIGS. 7 to 10, an operation of changing the printingsettings is performed when the printing of the printing data DP1corresponding to the first page is ongoing, and the changed printingsettings are reflected from the printing of the printing data DP3corresponding to the third page.

FIG. 7 is a diagram illustrating an example of the processing for thesetting change for each page, according to the present embodiment. Inthe printing apparatus 1 a, printing based on the printing data DP1 isongoing in accordance with settings A, namely, pre-change printingsettings. In the setting-change for-each-page enabled mode, theconversion section 203 stores printing images IP1, namely, one page ofprinting images corresponding to the printing data DP1, into theprinting image buffer 40. Note that the conversion section 203 does notstart the conversion processing on the printing data DP2 until thecompletion of the printing based on the printing data DP1.

When the operation panel 12 has received an operation of changing theprinting settings in the course of the printing processing based on theprinting data DP1, the change of the printing settings is not reflectedon the printing data DP1, and the printing is continued in accordancewith the pre-change settings A.

Here, the printing setting controller 206 changes a printing settingstate from an initial state to a page break monitoring state. Theprinting setting state is a state that is referred to for the purpose ofcontrolling processing for changing the printing settings. A status inwhich the printing setting state is in the page break monitoring stateis a status in which processing for detecting a page break command fromprinting data DP having been retrieved from the printing data buffer 30is performed during the execution of the drawing processing. A status inwhich the printing setting state is in the initial state is a status inwhich the processing for changing the printing settings is notperformed.

The printing data deletion controller 202 deletes the printing data DP1,and starts printing processing on the printing images IP1 correspondingto the printing data DP1. Here, the printing data deletion controller202 also deletes a page break command located at the end of the printingdata DP1 corresponding to the first page. When the printing datadeletion controller 202 has completed the printing processing on theprinting images IP1 corresponding to the printing data DP1 associatedwith the first page, the printing image deletion controller 205 deletesthe printing images IP1.

FIG. 8 is a diagram illustrating an example of the processing for thesetting change for each page, according to the present embodiment. Theconversion section 203 converts the printing data DP2 corresponding tothe second page into printing images IP2. The printing data deletioncontroller 202 allows the printing images IP2 resulting from theconversion to be stored into the printing image buffer 40, and theprinting controller 207 starts the printing.

When the printing setting state is in the page break monitoring state,the conversion section 203 reads a page break command located at the endof the printing data DP2 as second page during the conversion of theprinting data DP2 corresponding to the second page. When the conversionsection 203 has read the page break command, the page printing settingcontroller 209 changes the printing setting state into a reserved state.Here, a status in which the printing setting state is in the reservedstate is a status in which a printing setting change is to be made afterthe completion of the printing performed for each page. Because of thechange of the printing setting state into the reserved state, theprinting data DP3 corresponding to the third page and subsequentprinting data are converted in accordance with settings B, namely,post-change printing settings.

FIG. 9 is an example of the processing for the setting change for eachpage, according to the present embodiment. The printing data deletioncontroller 202 deletes the printing data DP2, and starts printingprocessing on the printing images IP2 corresponding to the printing dataDP2. When the printing data deletion controller 202 has completed theprinting processing on the printing images IP2 corresponding to theprinting data DP2 associated with the second page, the printing imagedeletion controller 205 deletes the printing images IP2. The pageprinting setting controller 209 changes the printing settings from thesettings A to the settings B because the printing setting state is inthe reserved state.

FIG. 10 is an example of the processing for the setting change for eachpage, according to the present embodiment. The conversion section 203converts the printing data DP3 corresponding to the third page intoprinting images IP3. Here, when converting the printing data DP3corresponding to the third page, the conversion section 203 converts theprinting data DP3 corresponding to the third page in accordance withsettings B namely, post-change printing settings. The printing datadeletion controller 202 allows the printing images IP3 resulting fromthe conversion to be stored into the printing image buffer 40, and theprinting controller 207 starts the printing processing.

Here, the details of the processing for the setting change for each pagewill be described with reference to FIG. 11.

FIG. 11 is a diagram illustrating an example of the printing processingaccording to the present embodiment. The printing processing illustratedin FIG. 11 corresponds to step S310 of FIG. 6. Here, individualprocesses in steps S400, S410, S430, S440, S460, S470, S480, and S490are the same as the individual processes in steps S100, S110, S120,S130, S140, S150, S160, and S170, which are illustrated in FIG. 3,except that the former processes are performed for each page, and thus,the former processes will be omitted from the following description.

Step S420: the controller 20 starts processes that are performed foreach page. Step S430: the process in step S430 is the same as theprocess in step S120 in FIG. 3 except that the conversion section 203does not start the conversion processing on the printing data DP2 untilthe completion of the printing based on the printing data DP1. StepS450: the printing setting controller 206 determines whether or not theprinting setting state is in the page break monitoring state.

When the result of the determination by the printing setting controller206 is that the printing setting state is in the page break monitoringstate (step S450: YES), the printing setting controller 206 performs aprocess in step S520. In contrast, when the result of the determinationby the printing setting controller 206 is that the printing settingstate is not in the page break monitoring state (step S450: NO), thecontroller 20 performs the process in step S460. Step S500: thecontroller 20 terminates the processes that are performed for each page.

Step S510: the printing setting controller 206 changes the printingsetting state into the page break monitoring state. Here, when theresult of the determination in step S440 is that the printing settingshave been changed, the printing setting controller 206 changes theprinting setting state into the page break monitoring state. Thereafter,the printing setting controller 206 performs the process in step S450.

Step S520: the page printing setting controller 209 determines whetheror not a page break command has been read. Here, the page printingsetting controller 209 detects the presence or absence of a page breakcommand from printing data DP having been retrieved from the printingdata buffer 30 in step S430, and thereby determines whether or not thepage break command is included in the printing data DP. When the resultof the determination by the page printing setting controller 209 is thatthe page break command has been read (step S520: YES), the page printingsetting controller 209 performs a process in step S530. In contrast,when the result of the determination by the page printing settingcontroller 209 is that the page break command is not read (step S520:NO), the controller 20 performs the process in step S460.

Step S530: the page printing setting controller 209 changes the printingsetting state into the reserved state. Thereafter, the controller 20performs the process in step S460.

Step S540: the page printing setting controller 209 determines whetheror not the printing setting state is in the reserved state. When theresult of the determination by the page printing setting controller 209is that the printing setting state is in the reserved state (step S540:YES), the page printing setting controller 209 performs a process instep S550. In contrast, when the result of the determination by the pageprinting setting controller 209 is that the printing setting state isnot in the reserved state (step S540: NO), the controller 20 repeats theprocesses that are performed for each page.

Step S550: the page printing setting controller 209 changes the printingsettings. Here, the page printing setting controller 209 makes thischange based on the printing setting information having been stored intothe RAM 15 in step S440. The process in step S440 is the same as theprocess in step S130 in FIG. 3. After the change of the printingsettings, the page printing setting controller 209 releases the printingsetting state from the reserved state, and returns the printing settingstate to the initial state.

As described above, when the setting-change for-each-page enabled modehas been selected by the selection section 208, the page printingsetting controller 209 detects the page break command from the printingdata DP stored in the printing data buffer 30, and allows the change ofthe printing settings to be reflected from a page subsequent to thedetected page break command.

Note that, in the present embodiment, there has been described the casein which the page printing setting controller 209 detects the page breakcommand from the printing data DP having been retrieved from theprinting data buffer 30 in step S430, but the present disclosure is notlimited to the above case. The page printing setting controller 209 maydetect the page break command from printing data DP that is among theprinting data DP stored in the printing data buffer 30 and that has beenconverted into the printing images IP.

Note that, in the present embodiment, there has been described the casein which the individual processes in steps S400, S410, S430, S440, S460,S470, S480, and S490 are performed for each page, but the presentdisclosure is not limited to the above case. The individual processes insteps S400, S410, S430, S440, S460, S470, S480, and S490 may beperformed for each set of n lines.

As described above, the printing apparatus 1 a according to the presentembodiment includes a first selection section (the selection section208) and a second printing setting controller (the page printing settingcontroller 209).

The first selection section (the selection section 208) makes aselection with respect to a first printing setting change mode (thesetting-change for-each-set-of-n-lines enabled mode) in which theprinting settings can be changed for each set of n lines and a secondprinting setting change mode (the setting-change for-each-page enabledmode) in which the printing settings can be changed for each page.

When the second printing setting change mode (the setting-changefor-each-page enabled mode) has been selected by the first selectionsection (the selection section 208), the second printing settingcontroller (the page printing setting controller 209) detects the pagebreak command from first printing data (printing data DP) stored in thefirst storage section (the printing data buffer 30), and allows thechange of the printing settings to be reflected from a page subsequentto the detected page break command.

When the first printing setting change mode (the setting-changefor-each-set-of-n-lines enabled mode) has been selected by the firstselection section (the selection section 208), the printing apparatus 1a allows the first printing setting controller (the printing settingcontroller 206) to reflect, for each set of n lines, the change of theprinting settings.

With this configuration, in the printing apparatus 1 a according to thepresent embodiment, the change between a mode in which the change of theprinting settings is reflected for each set of n lines and a mode inwhich the change of the printing settings is reflected for each page canbe made in response to a selected printing setting change mode, andthus, the printing can be performed in a way that allows the change ofthe printing settings for each set of n lines or the change of theprinting settings for each page to be made in the course of the printingprocessing.

Note that, in the individual embodiments described above, there havebeen described the case in which the printing execution signal includesthe printing setting information, but the present disclosure is notlimited to the above case. The printing setting information may not beincluded in the printing execution signal, but may be stored in, forexample, the RAM 15. When the printing setting information is stored inthe RAM 15, the printing setting information stored in the RAM 15 ischanged based on an operation of changing the printing settings that isreceived by the operation panel 12.

Further, in the individual embodiments described above, there has beendescribed the case in which an operation of changing the printingsettings is received by the operation panel 12, but the presentdisclosure is not limited to the above case. The printing apparatus 1may receive the printing execution signal in the course of printingprocessing, and may change the printing settings based on printingsetting information included in the received printing execution signal.

Note that a portion of the printing apparatus 1 or the printingapparatus 1 a in the embodiments described above, that is, for example,the controller 20, may be configured by a computer. In this case, theabove configuration may be implemented by allowing a program forimplementing the control function thereof to be recorded in a computerreadable recording medium, and allowing a computer system to retrieveand execute the program recorded in the recording medium. Note that the“computer system” mentioned herein is a computer system incorporated inthe printing apparatus 1 or the printing apparatus 1 a and including anOS and hardware such as peripheral devices and the like. Further, the“computer readable recording medium” means a portable medium, such as aflexible disc, a magneto optical disc, a ROM, a CD-ROM or the like, or astorage device incorporated in the computer system, such as a hard discor the like. Moreover, the “computer readable recording medium” may alsoinclude, not only means for dynamically retaining the program during ashort period of time, such as a communication line, in a case in whichthe program is transmitted via a network such as the Internet or thelike, or a communication link such as a telephone link or the like, butalso means for retaining the program during a certain length of time,such as a volatile memory inside a computer system constituting a serveror a client, in the above case. Furthermore, the above program may be aprogram for implementing part of the aforementioned functions, andfurther may be a program capable of implementing the aforementionedfunctions in combination with one or more programs that are alreadyrecorded in the computer system.

Further, part or the whole of the printing apparatus 1 or the printingapparatus 1 a in the embodiments described above may be constituted asan integrated circuit such as a large scale integration (LSI) or thelike. Each of the function blocks of the printing apparatus 1 or theprinting apparatus 1 a may be separately integrated into a processor, orpart or the whole of the function blocks of the printing apparatus 1 orthe printing apparatus 1 a may be integrated into a processor. Further,the means for integrating into circuits may be implemented by adedicated circuit or a general-purpose processor without being limitedto the LSI. Further, when, with the advance of technology forsemiconductors, technology for integrating into circuits in substitutionfor the LSI has appeared, an integrated circuit obtained by using therelevant technology may be employed.

Heretofore, the example embodiments of the present disclosure have beendescribed in detail with reference to the drawings, but specificconfigurations are not limited to the above-described exampleembodiments, and various design changes or the like can be made withinthe scope not departing from the gist of the present disclosure.

What is claimed is:
 1. A printing apparatus comprising: a firstacquisition section that acquires first printing data; a first storagecontroller that causes the first printing data acquired by the firstacquisition section to be stored into a first storage section; a firstconversion section that retrieves, from the first storage section, thefirst printing data stored into the first storage section on a first-infirst-out basis, and converts, for each set of n lines among linesincluded in a text document represented by the first printing data, nbeing a predetermined number larger than or equal to 1, the retrievedfirst printing data into first image data in accordance with a printingsetting in order in which the first printing data is retrieved; a firstdeletion controller that, at timing when printing of the first imagedata is started, deletes, from the first storage section, convertedfirst printing data corresponding to the first image data; and a firstprinting setting controller that, when the printing setting is changedduring the printing of the first image data, causes the first conversionsection to convert converted first printing data stored in the firststorage section, in accordance with the changed printing setting,wherein, the first acquisition section, the first storage controller,and the first conversion section operate without pause during the firstdeletion controller and the first printing setting controller operating.2. The printing apparatus according to claim 1, further comprising: asecond storage controller that causes the first image data to be storedinto a second storage section; and a second deletion controller that, attiming when the printing setting is changed during the printing of thefirst image data, deletes, from the second storage section, first imagedata, which is stored in the second storage section and which is notsubjected to printing.
 3. The printing apparatus according to claim 1,further comprising: a first selection section that selects either afirst printing setting change mode configured to change, for the set ofn lines, the printing setting or a second printing setting change modeconfigured to change, for each page, the printing setting; and a secondprinting setting controller that, when the second printing settingchange mode is selected by the first selection section, detects a pagebreak command from converted first printing data stored into the firststorage section, and causes the change of the printing setting to bereflected from a page subsequent to the detected page break command,wherein when the first printing setting change mode is selected by thefirst selection section, the first printing setting controller causesthe change of the printing setting to be reflected for the set of nlines.
 4. A printing method comprising: acquiring first printing data;causing the first printing data acquired in the acquiring first printingdata to be stored into a first storage section; retrieving, from thefirst storage section, the first printing data stored into the firststorage section on a first-in first-out basis, and converting, for eachset of n lines, n being a predetermined number larger than or equal to1, the retrieved first printing data into first image data in accordancewith a printing setting in order in which the first printing data isretrieved; deleting, at timing when printing of the first image data isstarted, from the first storage section, converted first printing datacorresponding to the first image data; and causing, when the printingsetting is changed during the printing of the first image data, in theconverting the retrieved first printing data, converted first printingdata stored in the first storage section to be converted, in accordancewith the changed printing setting.